Son, Jung-Eek
(Department of Plant Science and Research Institute for Agriculture and Life Sciences, Seoul National University)
Lee, Hoon (Department of Plant Science and Research Institute for Agriculture and Life Sciences, Seoul National University) Oh, Myung-Min (Department of Horticultural Science, Kansas State University) |
1 | Kirdmanee, C., Y. Kitaya, and T. Kozai. 1995. Effects of CO2 enrichment and supporting material in vitro on photoautotrophic growth of Eucalyptus plantlets in vitro and ex vitro. In Vitro Cell. Dev. Biol. Plant 31:144-149 DOI ScienceOn |
2 | Kozai, T., C. Cubota, and B.R. Jeong. 1997a. Environmental control for the large-scale production of plants through in vitro techniques. Plant Cell Tissue Organ Culture 51:49-56 DOI ScienceOn |
3 | Niu, G. and T. Kozai. 1997. Simulation of the growth of potato plantlets cultured photoautotrophically in vitro. Trans. ASAE. 40:255-260 DOI |
4 | Mousseau, M. 1986. CO2 enrichment in vitro. Effect of autotrophic and heterotrophic cultures of Nicotiana tabacum (var. Samsun). Photosynthesis Res. 8: 187-191 DOI ScienceOn |
5 | Goudriaan, J. and H.H. van Laar. 1994. Modeling potential crop growth processes: Textbook with exercises. Current Issues in Production Ecology Vol 2. Kluwer Academic Publ., Dordrecht, The Netherlands. p.150 |
6 | Kitaya, Y., O. Fukuda, T. Kozai, and C. Kirdmanee 1995. Effects of light intensity and lighting direction on the photoautotrophic growth and morphology of potato plantlets in vitro. Sci. Hortic. 62:15-24 DOI ScienceOn |
7 | Nobel, P.S. 1991. Physiochemical and environmental plant physiology. Academic Press, Inc., 473-495. San Diego, CA |
8 | Kozai, T., N.T. Quynh, and C. Kubota. 1997b. Environmental control and its effects in transplant production under artificial light. J. Kor. Soc. Hort. Sci. 38:194-199. |
9 | Kozai, T. 1991. Micropropagation under photoautotrophic conditions. P.C. p. 447-469. In: Debergh and R.H. Zimmerman (eds.). Micropropagation: technique and application, Academic Press |
10 | Niu, G., T. Kozai, and Y. Kitaya. 1996. Simulation of the time courses of CO2 concentration in the culture vessel and net photosynthetic rate of cymbidium plantlets. Trans. ASAE. 39:1567-1573 DOI |
11 | Pospisilova, J., I. Ticha, P. Kadlecek, D. Haisel, and S. Plzakova. 1999. Acclimatization of micropropagated plant to ex vitro conditions. Biol. Planta 42:481-497 DOI |
12 | Zobayed, S.M.A., F. Afreen, Y. Xiao, and T. Kozai. 2004. Recent advancement in research on photoautotrophic micropropagation using large culture vessels with forced ventilation. In vitro Cell. Dev. Biol.-Plant 40:450-458 DOI ScienceOn |
13 | Murashige, T. and Skoog F. 1962. A revised medium for rapid growth and bioassays with tobacco tissue cultures. Physiol. Plant 15:473-497 DOI |
14 | Weidemann, H.L. 1988. Importance and control of potato virus yn (pvyy) in seed potato production. Potato Res. 31:85-94 DOI |
15 | Kozai, T. and Y. Iwanami. 1988. Effects of CO2 enrichment and sucrose concentration under high photon fluxes on plantlet growth of carnation (Dianthus caryophyllus L.) in tissue culture during the preparation stage. J. Jpn. Soc. Hort. Sci. 57:279-288 DOI |
16 | Nobel, P.S., I.N. Forseth, and S.P. Long. 1993. Canopy structure and light interception. in photosynthesis and production in a changing environment. London, England: Chapman & Hall |
17 | FAO. 2008. http://www.potato2008.org/en/aboutiyp/index.html |
18 | Jeong, B.R., K. Fujiwara, and T. Kozai. 1995. Environmental control and photoautotrophic micropropagation. p. 123-170. In: Janick, J. (ed.). Horticultural Reviews. Vol 17. AVI Publishing Co. Inc, Westport |